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Gas Laws.

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Presentation on theme: "Gas Laws."— Presentation transcript:

1 Gas Laws

2 Gases Pressure Measuring Pressure Pressure is a measure of force/area
Kinetic Molecular Theory •Gases contain particles-- these particles are in constant, random straight line motion. •The particles collide with each other and the walls of the container. when the particles collide they transfer energy but the total energy remains constant (what is lost by one particle is gained by another). • since the molecules are far apart -- the volume of the individual particle is negligible compared to the total volume of the gas. •Gas particles are not attract to each other Pressure Pressure is a measure of force/area Measuring Pressure Barometer units mmHg Torr Atmosphere kilo Pascal lb/inch2 vacuum As P inc. the Hg Goes up the tube Measure how high the Hg Rises (mmHg or torr) P = F/A Air pressure Hg

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4 Standard Temperature and Pressure
Average Kinetic Energy is directly proportional to the Kelvin Temperature At absolute zero which is 0 degrees Kelvin or -273°C There is no molecular motion Convert °C to K K = °C + 273 Standard Temperature and Pressure STP Table A Standard Temp = 0°C or 273 K Standard Pressure = 1atm = 760 mm Hg = 760 torr = kPa

5 The Gas Laws Boyle’s Law Gay-Lussac’s Law Charles’ Law Avogadro's
Combined Gas Law Avogadro's Principle

6 Boyle’s Law PV =k Inc P dec. V P1V1 =P2V2 P V
At constant temperature, the volume of a given mass of gas is inversely proportional to the pressure. PV =k Inc P dec. V P1V1 =P2V2 P V

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8 Charles’ Law Inc. V, Inc. T V = k T V1 V2 = T1 T2 V T
at constant pressure, the volume of a given mass of gas is directly proportional to absolute temperature (Kelvin). Inc. V, Inc. T V = k T V1 T1 T2 V2 = V T

9 Gay-Lussac’s Law P = k Inc. P, Inc. T T P T P1 = P2 T1 T2
At constant volume,the pressure of a given mass of gas, is directly proportional to absolute temperature (Kelvin). P = k T Inc. P, Inc. T P T P1 = P2 T1 T2

10 P1V1 = P2V2 T1 T2 Avogadro's Principle
Combined Gas Law--Boyle’s and Charles’ laws used together. Reference Table T! P1V1 = P2V2 T T2 If something is held constant, Cross it out Avogadro's Principle equal volume of gases, under the same conditions of temperature and pressure, contain equal number of particles. DIFFERENT MASSES!!

11 No attraction between particles Follows gas laws @ all temps.
Real Gases & Ideal Gases No volume No attraction between particles Follows gas all temps. & pressures. Do have volume Are Attractions between particles Can condense or solidify *Real gases differ most from ideal gas at low temps. and high pressures.

12 Real Gases An ideal gas assumes that the molecules have no volume and no attraction to each other. However, real gas molecule do have some volume and are attracted to each other. Real gas behaves ideally Real gases deviate from ideal High Temp (molecules move fast) Low Pressure (molecules are far apart) Low Temp (molecules move slow) High Pressure (molecules are close together) **H and He are most ideal b/c they are small and can move fast. PLIGHT= P-pressure L-Low I- ideal G- gas H- High T- temperature


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